| 1-Wire® Devices |
| MAX1407 DS18S20 DS1920 MAXQ2000 | Temperature-Based Fan Control Using the MAXQ2000 Microcontroller |
| MAX127 DS18S20 | Remote Monitoring System Sends E-mail via SMS |
| DS9092K DS1921K DS28EA00EVKIT DS9090K | Overview of 1-Wire® Technology and Its Use |
| A/D and D/A Conversion/Sampling Circuits |
| MAX5139 MAX5138 MAX5137 MAX5136 MAX5135 MAX5134 MAX5661 MAX15501 MAX15500 | Process Control and PLC Tutorial |
| MAX1308 MAX1320 MAX11046 | Design Guidelines for High-Performance, Multichannel, Simultaneous-Sampling ADCs in Data-Acquisition Systems (DAS) |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX11046 | Advanced Power-Line Monitoring Requires a High-Performance, Simultaneous-Sampling ADC |
| MAX1360 MAX1359 MAX1358 | Measuring and Calibrating for Product-Dependent Temperature Offsets |
| MAX1233 MAX1234 | Getting Started with the MAX1233/MAX1234 Touch-Screen Controllers |
| | Analog ICs for Low Voltage Systems |
| | Resistive Bridge Basics: Part One |
| MAX1124 MAX1449 | Improving Gain Flatness without Sacrificing Dynamic Performance in High-IF ADCs |
| General |
| MAX253 MAX1276 | Set Your Holiday Lights to Music |
| MAX6225 MAX4238 MAX5491 MAX1402 | ADC Input Translator |
| MAX11046 MAX11040 | Reduce System Cost for Advanced Powerline Monitoring by Leveraging High-Performance, Simultaneous-Sampling ADCs |
| MAX1393ETB+ MAX1393MTB+ | Reference Design for a PC-Based Oscilloscope |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| | Aperture Jitter Calculator for ADCs |
| MAX1276 | Logarithmic LED Panel Display Has 72dB Range |
| MAX1358 MAX1359 MAX1360 | Measuring Temperature with the MAX1358 Data Acquisition System |
| MAX1407 MAX1494 MAX1447 MAX1414 MAX1401 MAX1415 MAX1491 MAX1497 MAX1492 MAX1498 MAX1408 MAX1495 MAX1400 MX7705 MAX1496 MAX1403 MAX1493 MAX1499 MAX1409 MAX1416 MAX1402 | Understanding the Effects of Clock Tolerances on 50/60Hz Noise Rejection in High Performance Sigma Delta ADCs |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| MAX127 DS18S20 | Remote Monitoring System Sends E-mail via SMS |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| | Understanding Integral Non-Linearity Errors |
| MAX4430 MAX3232 MAX1169 | Interfacing the MAX1169 ADC to a PIC Microcontroller |
| ICL7137 MAX1499 MAX1491 MAX1497 MAX130 MAX1496 MAX1493 ICL7106 ICL7116 MAX138 ICL7117 ICL7126 ICL7107 MAX136 MAX1491 MAX1498 MAX140 MAX1492 ICL7136 ICL7129 MAX1494 MAX139 MAX131 | Migrating from Integrating ADC Architectures to Sigma Delta |
| DS1852 | How to Configure the DS1852 Alarm and Warning Thresholds to Comply with SFF-8472 |
| MAX5420 MAX159 | Multi-Range ADC Use Voltage Reference Scaling Techniques |
| MAX4164 MAX1248 | Circuit Enables PC-Based Voltage Measurements |
| MAX1133 MAX1134 MAX1189 MAX1135 MAX1142 MAX1144 MAX1159 MAX1143 MAX1145 MAX1132 | Analysis of ADC System Distortion Caused by Source Resistance |
| MAX4455 MAX4358 MAX4616 | Improving the Performance of the MAX4455 by Reducing On-Screen Display Artifacts |
| MAX1400 MAX1402 | Demystifying Sigma-Delta ADCs |
| | Effects of Digital Crosstalk in Data Converters
Part 3: Digital Data Signal Crosstalk on the Clock |
| | Effects of Digital Crosstalk in Data Converters
Part 2: Crosstalk on the Clock |
| | Effects of Digital Crosstalk in Data Converters |
| | A Simple Thermistor Interface to an ADC |
| MAX125 MAX202E MAX3100 MAX471 | Practical Data Acquisition using a Windows¹-based Power Meter
|
| MAX1286 MAX147 MAX1298 MAX146 MAX186 | Understanding Single-Ended, Pseudo-Differential and Fully-Differential ADC Inputs |
| MAX1132 MAX1133 MAX1066 MAX1118 MAX1166 MAX1165 MAX1111 MAX1162 MAX1290 MAX195 MAX1280 MAX1065 | Understanding SAR ADCs |
| ICL7109 ICL7106 ICL7136 ICL7129 ICL7107 ICL7117 ICL7126 ICL7137 ICL7116 | Understanding Integrating ADCs |
| MAX951 MAX4066 | Low-Power 3V ADC is 0.05% Linear |
| MAX1425 MAX14449 MAX14448 MAX1200 MAX1446 MAX1426 MAX1201 MAX1444 MAX1205 | Understanding Pipelined ADCs |
| MAX1414 MAX1409 MAX1408 MAX1407 | The MAX1407 Complete Data Acquisition System Simplifies Your System Designs |
| MAX666 MAX187 MAX220 | PC Serial Port Drives 12-Bit A/D Converter |
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| MAX1106 MAX105 MAX104 MAX196 MAX153 | Understanding Flash ADCs |
| MAX7652 MAX5154 MAX7651 | Interfacing SPI Peripherals to the MAX7651 Processor |
| MAX1213N MAX19586 MAX19515 MAX190 MAX1286 MAX1247 MAX186 MAX1111 MAX195 MAX19516 MAX19517 MAX19588 MAX1214N MAX1215N | Frequently Asked Questions about Data Converters |
| MAX1281 MAX1280 MAX1291 MAX1290 | The ABCs of ADCs: Understanding How ADC Errors Affect System Performance |
| | ADC and DAC Glossary |
| MAX1115 MAX1116 MAX1117 MAX1118 MAX6341 MAX541 | Bench Characterization of ADCs Using a Low-Cost PC-Based Data-Acquisition Board |
| MAX195 MAX194 | Interfacing the MAX195 ADC to the TMS320C3X Evaluation Module |
| MAX187 | Interfacing the MAX187 to the TMS320C3X Evaluation Module |
| MAX125 MAX126 MAX116 MAX115 | ADCs for Simultaneous Sampling |
| MAX199 MAX197 MAX128 MAX1270 MAX198 MAX1271 MAX127 MAX196 | Analog-Signal Data Acquisition in Industrial Automation Systems |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| MAX190 | 12-Bit Sampling A/D Converter Conserves Power |
| MX7545 MAX163 | Sample/Hold Has Zero Droop and Infinite Hold |
| High-Speed Signal Processing |
| | Aperture Jitter Calculator for ADCs |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1448 MAX1426 MAX1121 MAX12553 MAX1208 MAX1425 MAX1444 MAX1123 MAX1420 MAX1421 MAX1213 MAX1422 MAX1123 MAX1211 MAX1206 MAX1446 MAX1122 MAX1207 MAX1449 | Crunching FFTs with Microsoft® Excel |
| MAX1122 MAX1123 MAX1124 | Secondary-Side Transformer Termination Improves Gain Flatness in High-Speed ADCs |
| MAX1449 | Proper Input Network Selection Achieves Optimum Dynamic Performance and Excellent Gain Flatness in High-Speed ADCs |
| MAX1192 MAX1185 MAX1196 | High-Speed ADC Sets Input Common-Mode Range |
| MAX9981 MAX9982 MAX9993 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX153 ICL7106 | A Simple ADC Comparison Matrix |
| MAX1192 MAX1193 MAX1191 | Histogram Testing Determines DNL and INL Errors |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| | How Quantization and Thermal Noise Determine an ADC's Effective Noise Figure |
| MAX1186 MAX1183 MAX1197 MAX1193 MAX1182 MAX1449 MAX1192 MAX1207 MAX1208 MAX1448 MAX1191 MAX1185 MAX1211 MAX1444 MAX1184 MAX1181 MAX1195 MAX1206 MAX1180 MAX1446 MAX1190 MAX1209 MAX1198 MAX1196 | Coherent Sampling vs. Window Sampling |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| MAX1444 MAX1448 MAX1446 MAX1449 | Multiply Your Sampling Rate with Time-Interleaved Data Converters |
| MAX101A MAX101AEVKit | Novel Storage Idea Supports Ultra-Fast Data Acquisition |
| | Automating ADC Data Collection |
| MAX104 MAX105 MAX107 MAX2620 MAX106 | Design a Low-Jitter Clock for High-Speed Data Converters |
| | Glossary of Frequently Used High-Speed Data Converter Terms |
| MAX1444 MAX1182 MAX1186 MAX1448 MAX1185 MAX1420 MAX1446 MAX1180 MAX1183 MAX1196 MAX1449 MAX1195 MAX1190 MAX1422 MAX1184 MAX1198 MAX1421 MAX1181 | Dynamic Testing of High-Speed ADCs, Part 2 |
| MAX1181 MAX1185 MAX1198 MAX1190 MAX1446 MAX1448 MAX1420 MAX1449 MAX1180 MAX1195 MAX1422 MAX1444 MAX1196 MAX1186 MAX1183 MAX1184 MAX1421 MAX1182 | Defining and Testing Dynamic Parameters in High-Speed ADCs, Part 1 |
| MAX106 MAX105 MAX104 MAX107 MAX108 | ADC Captures 1Gsps |
| MAX1200 MAX1420 MAX1421 MAX1422 MAX1205 MAX1201 | Pipeline ADCs Come of Age |
| MAX104 MAX107 MAX105 MAX108 MAX106 | INL/DNL Measurements for High-Speed Analog-to-Digital Converters (ADCs) |
| Amplifier and Comparator Circuits |
| | Analog ICs for Low Voltage Systems |
| Audio |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Battery Applications |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Current Sensing |
| MAX5139 MAX5138 MAX5137 MAX5136 MAX5135 MAX5134 MAX5661 MAX15501 MAX15500 | Process Control and PLC Tutorial |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| MAX125 MAX202E MAX3100 MAX471 | Practical Data Acquisition using a Windows¹-based Power Meter
|
| Filters |
| MAX7419 MAX7418 MAX7421 MAX7420 MAX7375 MAX7490 MAX1067 DS1085 | The Basics of Anti-Aliasing: Using Switched-Capacitor Filters |
| Miscellaneous |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| MAX951 MAX4066 | Low-Power 3V ADC is 0.05% Linear |
| Motor Control |
| MAX5139 MAX5138 MAX5137 MAX5136 MAX5135 MAX5134 MAX5661 MAX15501 MAX15500 | Process Control and PLC Tutorial |
| Op Amp Analysis, Tips and Tricks |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| Power Supplies |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Sensors and Instrumentation |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| Telecom |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Test and Measurement |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| MAX4164 MAX1248 | Circuit Enables PC-Based Voltage Measurements |
| MAX125 MAX202E MAX3100 MAX471 | Practical Data Acquisition using a Windows¹-based Power Meter
|
| Audio Circuits |
| MAX253 MAX1276 | Set Your Holiday Lights to Music |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| MAX5490 MAX5491 MAX5492 MAX5437 MAX5439 | Rail Splitter, from Abraham Lincoln to Virtual Ground |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| Automatic Test Equipment (ATE) |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| MAX9979 | PMU Mode Operation for the MAX9979 Pin-Electronics IC |
| MAX9961 MAX9950 MAX9949 MAX9968 MAX9967 MAX9962 | Built-In Features Eliminate the Need for External Relays when Using the Maxim Driver-Comparator-Load (DCL) and Parametric Measurement Unit (PMU) Chip Sets |
| Basestations/Wireless Infrastructure |
| High-Speed ADCs |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX1448 MAX1426 MAX1121 MAX12553 MAX1208 MAX1425 MAX1444 MAX1123 MAX1420 MAX1421 MAX1213 MAX1422 MAX1123 MAX1211 MAX1206 MAX1446 MAX1122 MAX1207 MAX1449 | Crunching FFTs with Microsoft® Excel |
| MAX1124 MAX1449 | Improving Gain Flatness without Sacrificing Dynamic Performance in High-IF ADCs |
| MAX19588 MAX1215N MAX1449 MAX1190 MAX1193 MAX1430 MAX1198 MAX12559 MAX12529 MAX1438 MAX1127 MAX1208 MAX12555 MAX1124 MAX1121 MAX1434 | Coherent Sampling Calculator (CSC) |
| MAX1122 MAX1123 MAX1124 | Secondary-Side Transformer Termination Improves Gain Flatness in High-Speed ADCs |
| MAX1449 | Proper Input Network Selection Achieves Optimum Dynamic Performance and Excellent Gain Flatness in High-Speed ADCs |
| MAX1192 MAX1185 MAX1196 | High-Speed ADC Sets Input Common-Mode Range |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| | How Quantization and Thermal Noise Determine an ADC's Effective Noise Figure |
| MAX1186 MAX1183 MAX1197 MAX1193 MAX1182 MAX1449 MAX1192 MAX1207 MAX1208 MAX1448 MAX1191 MAX1185 MAX1211 MAX1444 MAX1184 MAX1181 MAX1195 MAX1206 MAX1180 MAX1446 MAX1190 MAX1209 MAX1198 MAX1196 | Coherent Sampling vs. Window Sampling |
| MAX1425 MAX14449 MAX14448 MAX1200 MAX1446 MAX1426 MAX1201 MAX1444 MAX1205 | Understanding Pipelined ADCs |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| MAX1444 MAX1448 MAX1446 MAX1449 | Multiply Your Sampling Rate with Time-Interleaved Data Converters |
| MAX1444 MAX1182 MAX1186 MAX1448 MAX1185 MAX1420 MAX1446 MAX1180 MAX1183 MAX1196 MAX1449 MAX1195 MAX1190 MAX1422 MAX1184 MAX1198 MAX1421 MAX1181 | Dynamic Testing of High-Speed ADCs, Part 2 |
| MAX1181 MAX1185 MAX1198 MAX1190 MAX1446 MAX1448 MAX1420 MAX1449 MAX1180 MAX1195 MAX1422 MAX1444 MAX1196 MAX1186 MAX1183 MAX1184 MAX1421 MAX1182 | Defining and Testing Dynamic Parameters in High-Speed ADCs, Part 1 |
| MAX1200 MAX1420 MAX1421 MAX1422 MAX1205 MAX1201 | Pipeline ADCs Come of Age |
| High-Speed DACs |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| Wireless and RF System Design |
| MAX9981 MAX9982 MAX9993 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Battery Management |
| | Analog ICs for Low Voltage Systems |
| Battery Chargers |
| | Comparing the I²C Bus to the SMBus |
| Fuel-Gauge Circuits |
| | Comparing the I²C Bus to the SMBus |
| Circuit Protection |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| Communications Circuits |
| MAX11014 MAX11008 MAX1386 MAX1385 | Implementing a MAX1385-Based Control Loop in C/C++ |
| MAX12527 MAX12528 MAX12529 MAX12557 MAX12558 MAX12559 MAX2055 MAX2027 | Optimize the Buffer Amplifier/ADC Connection |
| MAX19586 | ADC Parameters for Your Wideband Telecommunications Receiver |
| MAX9981 MAX9982 MAX9993 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| DS1851 | DS1851 Varactor Temperature Compensation |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Digital Potentiometers |
| MAX5418 | Murphy's Law and the Risks of Designing "Off Data Sheet" |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| | Analog ICs for Low Voltage Systems |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| DS1852 | How to Configure the DS1852 Alarm and Warning Thresholds to Comply with SFF-8472 |
| A-D and D-A Conversion |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| MAX1169 MAXQ2000 | Proven Implementations of the I²C Bus |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Amplifier Control |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Audio |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Display Control--LCD, CCFL, TFT |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Fiber Monitoring and Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| General |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| Industrial and Architectural Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| Instrumentation |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Power Supply Margining and Calibration |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| RF Power Amp |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| Display Drivers |
| General |
| MAX253 MAX1276 | Set Your Holiday Lights to Music |
| LED Drivers |
| MAX1276 | Logarithmic LED Panel Display Has 72dB Range |
| Filter Circuits (Analog) |
| MAX7414 MAX7413 MAX7410 MAX7409 MAX7415 MAX7412 MAX7411 MAX7408 MAX7405 MAX7401 MAX7407 MAX7404 MAX7403 MAX7400 | Integrated Solutions Make Analog Filter Design Easy |
| | Understanding Integral Non-Linearity Errors |
| Continuous-Time Filter |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| Switched-Capacitor Filter |
| MAX7419 MAX7418 MAX7421 MAX7420 MAX7375 MAX7490 MAX1067 DS1085 | The Basics of Anti-Aliasing: Using Switched-Capacitor Filters |
| General Engineering Topics |
| MAX6195 | Same? Really the Same? Maybe? The Cross-Reference Challenge |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| MAX5400 MAX5401 MAX6133 MAX5532 MAX5533 MAX5534 MAX5535 | Well Grounded, Digital Is Analog |
| MAX5490 MAX5491 MAX5492 MAX5437 MAX5439 | Rail Splitter, from Abraham Lincoln to Virtual Ground |
| MAX5381/81/82 MAX5490/91/92 MAX5128 MAX5430 MAX5426 DS80C320/323 MAX6029 MAX9915 MAX1108/09 | Saving Energy: Little Things Mean a Lot |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| MAX12527 MAX12528 MAX12557 MAX12558 | MAX12557 Schematic and Layout Suggestions |
| | Resistive Bridge Basics: Part One |
| | Automating ADC Data Collection |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| High-Speed Interconnect |
| MAX12527 MAX12528 MAX12529 MAX12557 MAX12558 MAX12559 MAX2055 MAX2027 | Optimize the Buffer Amplifier/ADC Connection |
| MAX19586 | ADC Parameters for Your Wideband Telecommunications Receiver |
| MAX19541 | Mathematical Basics of Band-Limited Sampling and Aliasing |
| High-Speed Signal Processing |
| MAX1124 MAX1449 | Improving Gain Flatness without Sacrificing Dynamic Performance in High-IF ADCs |
| MAX1122 MAX1123 MAX1124 | Secondary-Side Transformer Termination Improves Gain Flatness in High-Speed ADCs |
| MAX1449 | Proper Input Network Selection Achieves Optimum Dynamic Performance and Excellent Gain Flatness in High-Speed ADCs |
| MAX1192 MAX1185 MAX1196 | High-Speed ADC Sets Input Common-Mode Range |
| MAX9981 MAX9982 MAX9993 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX153 ICL7106 | A Simple ADC Comparison Matrix |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| | Automating ADC Data Collection |
| ADC |
| | Aperture Jitter Calculator for ADCs |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX1448 MAX1426 MAX1121 MAX12553 MAX1208 MAX1425 MAX1444 MAX1123 MAX1420 MAX1421 MAX1213 MAX1422 MAX1123 MAX1211 MAX1206 MAX1446 MAX1122 MAX1207 MAX1449 | Crunching FFTs with Microsoft® Excel |
| MAX19588 MAX1215N MAX1449 MAX1190 MAX1193 MAX1430 MAX1198 MAX12559 MAX12529 MAX1438 MAX1127 MAX1208 MAX12555 MAX1124 MAX1121 MAX1434 | Coherent Sampling Calculator (CSC) |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| | How Quantization and Thermal Noise Determine an ADC's Effective Noise Figure |
| MAX1186 MAX1183 MAX1197 MAX1193 MAX1182 MAX1449 MAX1192 MAX1207 MAX1208 MAX1448 MAX1191 MAX1185 MAX1211 MAX1444 MAX1184 MAX1181 MAX1195 MAX1206 MAX1180 MAX1446 MAX1190 MAX1209 MAX1198 MAX1196 | Coherent Sampling vs. Window Sampling |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| MAX1444 MAX1448 MAX1446 MAX1449 | Multiply Your Sampling Rate with Time-Interleaved Data Converters |
| MAX101A MAX101AEVKit | Novel Storage Idea Supports Ultra-Fast Data Acquisition |
| MAX104 MAX105 MAX107 MAX2620 MAX106 | Design a Low-Jitter Clock for High-Speed Data Converters |
| MAX1444 MAX1182 MAX1186 MAX1448 MAX1185 MAX1420 MAX1446 MAX1180 MAX1183 MAX1196 MAX1449 MAX1195 MAX1190 MAX1422 MAX1184 MAX1198 MAX1421 MAX1181 | Dynamic Testing of High-Speed ADCs, Part 2 |
| MAX1181 MAX1185 MAX1198 MAX1190 MAX1446 MAX1448 MAX1420 MAX1449 MAX1180 MAX1195 MAX1422 MAX1444 MAX1196 MAX1186 MAX1183 MAX1184 MAX1421 MAX1182 | Defining and Testing Dynamic Parameters in High-Speed ADCs, Part 1 |
| MAX106 MAX105 MAX104 MAX107 MAX108 | ADC Captures 1Gsps |
| MAX1200 MAX1420 MAX1421 MAX1422 MAX1205 MAX1201 | Pipeline ADCs Come of Age |
| MAX104 MAX107 MAX105 MAX108 MAX106 | INL/DNL Measurements for High-Speed Analog-to-Digital Converters (ADCs) |
| DAC |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| General |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX12553 MAX12554 MAX9320 MAX12555 | Schematic and Layout Guidelines for High-Speed Data Converters |
| MAX19588 MAX1215N MAX1449 MAX1190 MAX1193 MAX1430 MAX1198 MAX12559 MAX12529 MAX1438 MAX1127 MAX1208 MAX12555 MAX1124 MAX1121 MAX1434 | Coherent Sampling Calculator (CSC) |
| MAX1192 MAX1193 MAX1191 | Histogram Testing Determines DNL and INL Errors |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| MAX1186 MAX1183 MAX1197 MAX1193 MAX1182 MAX1449 MAX1192 MAX1207 MAX1208 MAX1448 MAX1191 MAX1185 MAX1211 MAX1444 MAX1184 MAX1181 MAX1195 MAX1206 MAX1180 MAX1446 MAX1190 MAX1209 MAX1198 MAX1196 | Coherent Sampling vs. Window Sampling |
| | Glossary of Frequently Used High-Speed Data Converter Terms |
| Interface Circuits |
| Other Interface Circuits |
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| MAX7652 MAX5154 MAX7651 | Interfacing SPI Peripherals to the MAX7651 Processor |
| RS232 |
| MAX4430 MAX3232 MAX1169 | Interfacing the MAX1169 ADC to a PIC Microcontroller |
| Measurement Circuits |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| MAX1168 MAX4230 | USB Carries 16-Bit Voltage Measurements |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX1233 MAX1234 | Getting Started with the MAX1233/MAX1234 Touch-Screen Controllers |
| | Using the MAXQ2000 to Implement a High-Speed I2C Interface for the MAX1169 |
| MAX1494 MAX6126 MAX1492 MAX8510 MAX1403 MAX1238 MAX1415 | Design Considerations for a Low-Cost Sensor and A/D Interface |
| | Resistive Bridge Basics: Part One |
| MAX1407 MAX1494 MAX1447 MAX1414 MAX1401 MAX1415 MAX1491 MAX1497 MAX1492 MAX1498 MAX1408 MAX1495 MAX1400 MX7705 MAX1496 MAX1403 MAX1493 MAX1499 MAX1409 MAX1416 MAX1402 | Understanding the Effects of Clock Tolerances on 50/60Hz Noise Rejection in High Performance Sigma Delta ADCs |
| MAX9961 MAX9950 MAX9949 MAX9968 MAX9967 MAX9962 | Built-In Features Eliminate the Need for External Relays when Using the Maxim Driver-Comparator-Load (DCL) and Parametric Measurement Unit (PMU) Chip Sets |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| | Automating ADC Data Collection |
| MAX1414 MAX1409 MAX1408 MAX1407 | The MAX1407 Complete Data Acquisition System Simplifies Your System Designs |
| Microcontrollers |
| 8051 Drop-In |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX7652 MAX7651 | Downloading a Program to Flash Using the MAX7651 EV Kit Serial Downloader |
| MAX7651 MAX7652 | Configuring Keil µVision IDE for the MAX7651 EV Kit |
| MAX7651 MAX7652 | Performing ADC Conversions Using the MAX7651 |
| MAX186 MAX188 | 12-Bit ADC Upgrades µC's Internal 8-Bit ADC |
| MAX7652 MAX7651 | Pseudo-Random Number Generation Routine for the MAX765x Microprocessor |
| MAX7652 MAX7651 | A Collection of Extended Math Subroutines for the MAX7651 |
| MAX7651 MAX7652 | Interfacing the MAX7651/MAX7652 12-Bit Data Acquisition System to the 24C02 2-Wire Serial EEPROM |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| MAXQ Mixed-Signal |
| MAX1393ETB+ MAX1393MTB+ | Reference Design for a PC-Based Oscilloscope |
| MAX1169 MAXQ2000 | Proven Implementations of the I²C Bus |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| Secure |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| TINI Networked |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| Miscellaneous Circuits |
| | Resistive Bridge Basics: Part One |
| MAX147 | Adjustment-Free Inclinometer Operates On +2.7V |
| | Automating ADC Data Collection |
| Optoelectronics |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| Applications: Optical Control and Monitoring |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1858 DS1852 DS1857 DS1854 | Monitor Calibration in Fiber Optic Applications |
| Oscillators/Delay Lines/Timers/Counters |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| Power-Supply Circuits |
| MAX5490 MAX5491 MAX5492 MAX5437 MAX5439 | Rail Splitter, from Abraham Lincoln to Virtual Ground |
| | Analog ICs for Low Voltage Systems |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| APP NOTES FOR: Desktop PC/Server |
| | Comparing the I²C Bus to the SMBus |
| APP NOTES FOR: Notebook Computer |
| | Comparing the I²C Bus to the SMBus |
| APP NOTES FOR: Other |
| | Comparing the I²C Bus to the SMBus |
| Prototyping and PC-Board Layout |
| MAX5418 | Murphy's Law and the Risks of Designing "Off Data Sheet" |
| MAX1308 MAX1320 MAX11046 | Design Guidelines for High-Performance, Multichannel, Simultaneous-Sampling ADCs in Data-Acquisition Systems (DAS) |
| MAX5400 MAX5401 MAX6133 MAX5532 MAX5533 MAX5534 MAX5535 | Well Grounded, Digital Is Analog |
| ResourceSmart: Green Design |
| MAX11046 MAX11040 | Reduce System Cost for Advanced Powerline Monitoring by Leveraging High-Performance, Simultaneous-Sampling ADCs |
| MAX5381/81/82 MAX5490/91/92 MAX5128 MAX5430 MAX5426 DS80C320/323 MAX6029 MAX9915 MAX1108/09 | Saving Energy: Little Things Mean a Lot |
| Sensor Signal Conditioners |
| MAX11046 | Advanced Power-Line Monitoring Requires a High-Performance, Simultaneous-Sampling ADC |
| MAX11040 | Overview of the MAX11040 24-Bit Simultaneous-Sampling, Sigma-Delta ADC |
| MAX1464 | Maximizing the MAX1464's ADC Range |
| | Resistive Bridge Basics: Part One |
| MAX1407 MAX1494 MAX1447 MAX1414 MAX1401 MAX1415 MAX1491 MAX1497 MAX1492 MAX1498 MAX1408 MAX1495 MAX1400 MX7705 MAX1496 MAX1403 MAX1493 MAX1499 MAX1409 MAX1416 MAX1402 | Understanding the Effects of Clock Tolerances on 50/60Hz Noise Rejection in High Performance Sigma Delta ADCs |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| Signal Generation Circuits |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| Switches and Multiplexers |
| MAX4885E | Switching VGA Signals in a Notebook |
| Temperature Sensors and Thermal Management |
| MAX6603 MAX1396 | Reference Design for a PC-based Temperature-Measurement System |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| MAX1360 MAX1359 MAX1358 | Measuring and Calibrating for Product-Dependent Temperature Offsets |
| MAX11014 MAX11008 MAX1386 MAX1385 | Implementing a MAX1385-Based Control Loop in C/C++ |
| MAX1407 DS18S20 DS1920 MAXQ2000 | Temperature-Based Fan Control Using the MAXQ2000 Microcontroller |
| | Resistive Bridge Basics: Part One |
| MAX127 DS18S20 | Remote Monitoring System Sends E-mail via SMS |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| MAX1400 MAX1402 | Demystifying Sigma-Delta ADCs |
| MAX1298 | Achieving High Accuracy Using MAX1298/MAX1299 Temperature Sensors |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| Video Circuits |
| On-Screen Display |
| MAX4455 MAX4358 MAX4616 | Improving the Performance of the MAX4455 by Reducing On-Screen Display Artifacts |
| Voltage References |
| MAX6225 MAX4238 MAX5491 MAX1402 | ADC Input Translator |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| MAX6195 | Same? Really the Same? Maybe? The Cross-Reference Challenge |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX1087 MAX6025 | Simple Power Monitor |
| | Analog ICs for Low Voltage Systems |
| MAX1498 MAX1491 MAX5490 MAX6126 MAX1493 MAX1495 MAX1447 MAX1496 | Implementing an External Reference and the Resulting Effect on Gain for the MAX149x Sigma-Delta Panel-Meter ADCs |
| MAX4430 MAX3232 MAX1169 | Interfacing the MAX1169 ADC to a PIC Microcontroller |
| MAX5420 MAX159 | Multi-Range ADC Use Voltage Reference Scaling Techniques |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| Wireless and RF |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| Basestations (Also see: Basestations/Wireless Infrastructure Appnotes) |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX9981 MAX9982 MAX9993 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Cellular Handsets |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Other Applications/Selector Guides/Software/Tutorials |
| MAX1192 MAX1185 MAX1196 | High-Speed ADC Sets Input Common-Mode Range |
| DS1851 | DS1851 Varactor Temperature Compensation |
